NAME：Qiao Wen

[1]     Haoming Liu, Fengbin Zhou, Zhongwen Xia, Jianyu Hua, Cong Zhang, Linsen Chen, and Wen Qiao†, “Bidirectional Augmented Reality 3D Signage Enabled by a Metagrating Waveguide”, ACS Photonics 2023 10 (12), 4259-4266

[2]     Jianyu Hua, Fengbin Zhou, Zhongwen Xia, Wen Qiao†, Linsen Chen†.  Large-scale metagrating complex-based light field 3D display with space-variant resolution for non-uniform distribution of information and energy. Nanophotonics. (2023)

[3]     Chao Chen, Xiuguo Chen†, Sheng Sheng, Zhongwen Xia, Jiacheng Shi, Wen Qiao†, and Shiyuan Liu, “Monitoring sidewall tilting of pixelated nanogratings in 3D display”, Optics Express, 2023 Jan 30;31(3):4122-4128.

[4]     Jianyu Hua, Yang Li, Peiran Ge, Donghui Yi, Linsen Chen, Wen Qiao†, “Time-multiplexed vector light field display with intertwined views via metagrating matrix”, Optics and Lasers in Engineering, Volume 164, 2023

[5]     周婷, 乔文†, 华鉴瑜, 陈林森. 增强现实抬头显示现状与展望[J]. 激光与光电子学进展, 2023, 60(8): 0811008.

[6]     刘锴，华鉴瑜，陈林森，乔文†. 虚实融合裸眼3D显示现状与展望[J]. 激光与光电子学进展, 2022, 59(20):2011004.

[7]     Fengbin Zhou, Wen Qiao†, Linsen Chen†, “Fabrication technology for light field reconstruction in glasses-free 3D display”, Journal of Information Display, 2022

[8]     Fei Lu, Jianyu Hua, Fengbin Zhou, Zhongwen Xia, Ruibin Li, Linsen Chen, and Wen Qiao†, Pixelated volume holographic optical element for augmented reality 3D display, Optics Express, 15929-15938 (2022)

[9]     Chao Chen, Xiuguo Chen†, Zhongwen Xia, Jiacheng Shi, Sheng Sheng, WenQiao†, and Shiyuan Liu,  Characterization of pixelated nanogratings in 3D holographic display by imaging Mueller matrix ellipsometry, Optics Letters, 47, 3580-3583 (2022)

[10]  Tianjiao Ma, Liangwei Zhou, Jianyu Hua, Jin Li, Xiaodong Ma, Wen Qiao†, Jie Yin, and Xuesong Jiang†, “Dynamic Surface Wrinkles for In Situ Light-Driven Dynamic Gratings”, ACS Applied Materials & Interfaces 2022 14 (14), 16949-16957

[11]  Jianyu Hua, Wen Qiao†, and Linsen Chen†, Recent Advances in Planar Optics-Based Glasses-Free 3D Displays. Frontiers in Nanotechnology. 2022, 4:829011.

[12]  夏仲文，华鉴瑜，陈林森，乔文. 基于微纳光子器件的光场裸眼3D显示技术[J]. 液晶与显示, 2022, 37(5):562-572.

[13]  Fengbin Zhou, Feng Zhou, Yang Chen, Jianyu Hua, Wen Qiao†, and Linsen Chen†, “Vector light field display based on an intertwined flat lens with large depth of focus”. Optica, 2022, 9(3): 288-294 (IF=11.1)

[14]  Jianyu Hua, Erkai Hua, Fengbin Zhou, Jiacheng Shi, Chinhua Wang, Huigao Duan, Yueqiang Hu, Wen Qiao†, and Linsen Chen†, “Foveated glasses-free 3D display with ultrawide field of view via a large-scale 2D-metagrating complex”. Light Sci Appl 10, 213 (2021). (IF=13.7)

[15]  Shi, Jiacheng, Hua, Jianyu, Zhou, Fengbin, Yang, Min, Qiao, Wen†, Augmented Reality Vector Light Field Display with Large Viewing Distance Based on Pixelated Multilevel Blazed Gratings, Photonics, 2021. 8. 16, 8(8), 337 (IF 2.408)

[16]  Xiumei Wu, Wen Qiao†, Ming Zhu, Jinru Ren, Donglin Pu, and Linsen Chen†, Roll-to-plate additive manufacturing, Optics Express 29, 21833-21843 (2021) (IF 3.4) Editor’s Pick

[17]  陈林森†，乔文†，叶燕，刘艳花，浦东林，面向柔性光电子器件的微纳光制造关键技术与应用，光学学报，2021, 41(8): 0823018

[18]  Jiacheng Shi, Wen Qiao†, Jianyu Hua, Ruibin Li, Linsen Chen†. Spatial multiplexing holographic combiner for glasses-free augmented reality. Nanophotonics 9(9): 3003-3010. (2020)(IF=7.49)

[19]  Wenqiang Wan, Wen Qiao†, Donglin Pu, Linsen Chen†. “Super multi-view display based on pixelated nanogratings under an illumination of a point light source.” Optics and Lasers in Engineering Volume 134, 106258, (2020).(IF 3.9)

[20]  Feng Zhou, Jianyu Hua, Jiacheng Shi, Wen Qiao†, Linsen Chen. Pixelated Blazed Gratings for High Brightness Multiview Holographic 3D Display. IEEE Photonics Technology Letters 32(5): 283-286. (2020).(IF 2.5)

[21]  Jianyu Hua, Donghui Yi, Wen Qiao†, Linsen Chen. “Multiview holographic 3D display based on blazed Fresnel DOE”. Optics Communications, Volume 472, 125829, (2020).(IF 2.1)

[22]  乔文，周冯斌，陈林森†，距离移动电子设备有多远？裸眼 3D 显示现状与展望，红外与激光工程，2020, 49(3): 0303002

[23]  Yunli Zhang, Donghui Yi, Wen Qiao†, Linsen Chen, “Directional backlight module based on pixelated nano-gratings,” Optics Communications, Volume 459, 125034, (2020). (IF 2.1)

[24]  Wen Qiang Wan, Wen Qiao†, Dong Lin Pu, Rui Bin Li, Chin Hua Wang, Yue Qiang Hu, Hui Gao Duan, Lin Jie Guo, and Lin-Sen Chen†, “Holographic Sampling Display Based on Metagratings,” iScience, vol. 23, no. 1, pp. 100773-100782, (2020). (IF 4.5)

[25]  Zhen Zhou, Wen Qiao, Qinhua Wang, Linsen Chen, Wenbin Huang†, Microfluidic channels incorporating organic distributed Bragg reflector lasers for in situ sensing applications, Journal of Materials Chemistry C, 2018. 10. (IF 7.1)

[26]  Wenqiang Wan, Wen Qiao†，Wenbin Huang，Ming Zhu，Yan Ye，Xiangyu Chen，Linsen Chen†, Multiview holographic 3D dynamic display by combining a nano-grating patterned phase plate and LCD, Optics Express 2017.1.13 25 (2): 1114-1122(IF 3.4)

[27]  Zengqian Ding，Chinhua Wang，Zhixiong Hu，Zhenggang Cao，Zhen Zhou，Xiangyu Chen，Hongyu Chen，Wen Qiao†, Surface profiling of an aspherical liquid lens with a varied thickness membrane, Optics Express 2017.2.6 25 (4): 3122-3132(IF 3.4)

[28]  Wenbin Huang，Xingtao Yu，Yanhua Liu，Wen Qiao†，Linsen Chen, A review of the scalable nano-manufacturing technology for flexible devices, Frontiers of Mechanical Engineering 2017.1.7 1（11）(IF 2.448)

[29]  Wen Qiao，Wenbin Huang，Yanhua Liu，Xiangmin Li，Lin-Sen Chen，Jian-Xin Tang†，Toward Scalable Flexible Nanomanufacturing for Photonic structures and Devices, Advanced Materials, 2016.11.7 28（47）:10353-10380 (IF= 27.4) Inside Front Cover

[30]  Wen Qiao, Chinhua Wang, Zengqian Ding, Junlan Song, XiaoXiao Wei†, Yu-Hwa Lo. “A two-stage electrophoretic microfluidic device for nucleic acid collection and enrichment”, Microfluidics and Nanofluidics 20: 77 (2016).(IF 2.48)

[31]  Wenbin Huang, Donglin Pu, Xiaofei Yang, Guojun Wei, Zongbao Fang, Xiaohong Zhou, Wen Qiao†, and Linsen Chen†. “A high-order external distributed feedback polymer laser with low working threshold”, Journal of Physics D: Applied Physics, 49(17):175106 (2016) (IF 2.77)

[32]  Wenqiang Wan, Wen Qiao†, Wenbin Huang, Ming Zhu, Zongbao Fang, Donglin Pu, Yan Ye, Yanhua Liu, and Linsen Chen†. “Efficient fabrication method of nano-grating for 3D holographic display with full parallax views”, Optics express, 6203-6212 (2016) (IF 3.488)

[33]  Wen Qiao, Zhang, T., Yen, T., Ku, T. H., Song, J., Lian, I., & Yu-Hwa Lo, “Oil-Encapsulated Nanodroplet Array for Bio-molecular Detection”. Annals of biomedical engineering, 1-10 (2014).（IF 3.23）

[34]  Wen Qiao, Gyoujin Cho, Yu-Hwa Lo, “Wirelessly powered microfluidic electrophoresis devices using printable RF circuits”, Lab Chip, 1074-80, 11(2011); (IF 5.67)

[35]  WenQiao, Daniel Johnson, Frank S. Tsai, Sung Hwan Cho, and Yu-Hwa Lo, Bio-inspired accommodating fluidic intraocularlens, Optics Letters, 34, 3214-3216 (2009)  (IF 3.4)

[36]  Wen Qiao, Frank S. Tsai, Sung Hwan Cho, Huimin Yan, Yu-Hwa Lo, Fluidic intraocular lens with a large accommodation range”, IEEE Photonics Technology Letter21, 304-406 (2009) (IF 2.2)

1. T.-F. Wu, W. Qiao, Y.-J. Chiu and Y.-H. Lo, “Optofluidic Lab-on-a-chip Devices for Photomedicine Applications” in Applications of Nanoscience in Photomedicine; Woodhead Publishing Limited (2014)

2. S.O. Meade, J. Godin, C.-H. Chen, S. H. Cho, F. Tsai, W. Qiao, Y.-H. Lo, “Microfluidic flow cytometry: Advancements toward compact, integrated systems,” in Advanced optical cytometry: methods and disease diagnoses; Ed. V. Tuchin, Wiley (2011).

3. C.-H. Chen,J. Godin, S. H. Cho, F. Tsai, W. Qiao, Y.-H. Lo, “Flow cytometry and fluorescence-activated cell sorting,” in Handbook of Optofluidics; Ed. A. Hawkins and H. Schmidt, CRC Press (2010).

4. F. Tsai, J. Godin, Y. H. Lo, S. H. Cho, W. Qiao, “Bio-inspired fluidic lenses for imaging and integrated optics,” in Optofluidics: Fundamentals, Devices, and Applications; Ed. Y. Fainman, L. Lee, D. Psaltis, C. Yang, McGraw Hill (2010).